An electronic device is provided. The electronic device includes a first image sensor, a second image sensor electrically connected to the first image sensor, and a processor operatively connected to the first image sensor and the second image sensor. The processor may be configured to generate first image data using the first image sensor and generate second image data using the second image sensor based on a synchronizing signal, transmit the second image data generated by the second image sensor to the first image sensor, and control the first image sensor to generate and output image data by processing the first image data and the second image data based on the synchronizing signal.

An electronic device is provided. The electronic device includes a first image sensor, a second image sensor electrically connected to the first image sensor, and a processor operatively connected to the first image sensor and the second image sensor. The processor may be configured to generate first image data using the first image sensor and generate second image data using the second image sensor based on a synchronizing signal, transmit the second image data generated by the second image sensor to the first image sensor, and control the first image sensor to generate and output image data by processing the first image data and the second image data based on the synchronizing signal.

A captured image decision device includes a synchronizing signal extraction section extracting a vertical synchronizing signal and a horizontal synchronizing signal for use in displaying a captured image captured by a camera, a time measurement section measuring a pulse interval time period of the vertical synchronizing signal, a segment area setting section configured to divide a frame of the captured image displayed according to the pulse interval time period by a horizontal virtual line, thus setting a plurality of segment areas divided by the virtual line, a pulse number measurement section measuring a pulse number of the horizontal synchronizing signal corresponding to each segment area, and a decision section deciding whether an affirmation condition of the pulse number measured by the pulse number measurement section being equal to or greater than a predetermined value is satisfied or not.

A captured image decision device includes a synchronizing signal extraction section extracting a vertical synchronizing signal and a horizontal synchronizing signal for use in displaying a captured image captured by a camera, a time measurement section measuring a pulse interval time period of the vertical synchronizing signal, a segment area setting section configured to divide a frame of the captured image displayed according to the pulse interval time period by a horizontal virtual line, thus setting a plurality of segment areas divided by the virtual line, a pulse number measurement section measuring a pulse number of the horizontal synchronizing signal corresponding to each segment area, and a decision section deciding whether an affirmation condition of the pulse number measured by the pulse number measurement section being equal to or greater than a predetermined value is satisfied or not.

A moving image capturing instructing terminal includes a communicator, a monitor, a memory, and a control unit. The control unit transmits recording start instruction information to a camera through the communicator. After the recording start instruction information is transmitted, the control unit receives moving image recording information related to the recording of the moving image from the camera through the communicator. After the recording start instruction information is transmitted, the control unit displays at least one of a scheduled recording period of time and a combination of a scheduled recording start time and a scheduled recording stop time through the monitor. After the moving image recording information is received, the control unit displays at least one of a recording period of time and a combination of a recording start time and a recording stop time through the monitor.

A moving image capturing instructing terminal includes a communicator, a monitor, a memory, and a control unit. The control unit transmits recording start instruction information to a camera through the communicator. After the recording start instruction information is transmitted, the control unit receives moving image recording information related to the recording of the moving image from the camera through the communicator. After the recording start instruction information is transmitted, the control unit displays at least one of a scheduled recording period of time and a combination of a scheduled recording start time and a scheduled recording stop time through the monitor. After the moving image recording information is received, the control unit displays at least one of a recording period of time and a combination of a recording start time and a recording stop time through the monitor.

A method implemented on a computing device including at least one processor and a storage for synchronizing video transmission with physical layer. The method includes determining a first time point corresponding to a frame header of a video frame, determining a second time point corresponding to a frame header of a physical layer frame based at least in part on the first time point, and starting transmitting the video frame at the second time point.

A method implemented on a computing device including at least one processor and a storage for synchronizing video transmission with physical layer. The method includes determining a first time point corresponding to a frame header of a video frame, determining a second time point corresponding to a frame header of a physical layer frame based at least in part on the first time point, and starting transmitting the video frame at the second time point.

A captured image decision device includes a synchronizing signal extraction section extracting a vertical synchronizing signal and a horizontal synchronizing signal for use in displaying a captured image captured by a camera, a time measurement section measuring a pulse interval time period of the vertical synchronizing signal, a segment area setting section configured to divide a frame of the captured image displayed according to the pulse interval time period by a horizontal virtual line, thus setting a plurality of segment areas divided by the virtual line, a pulse number measurement section measuring a pulse number of the horizontal synchronizing signal corresponding to each segment area, and a decision section deciding whether an affirmation condition of the pulse number measured by the pulse number measurement section being equal to or greater than a predetermined value is satisfied or not.

A captured image decision device includes a synchronizing signal extraction section extracting a vertical synchronizing signal and a horizontal synchronizing signal for use in displaying a captured image captured by a camera, a time measurement section measuring a pulse interval time period of the vertical synchronizing signal, a segment area setting section configured to divide a frame of the captured image displayed according to the pulse interval time period by a horizontal virtual line, thus setting a plurality of segment areas divided by the virtual line, a pulse number measurement section measuring a pulse number of the horizontal synchronizing signal corresponding to each segment area, and a decision section deciding whether an affirmation condition of the pulse number measured by the pulse number measurement section being equal to or greater than a predetermined value is satisfied or not.